文章摘要
张飞云, 冯德敏, 胥 杨, 兰 月, 李金霖, 赵天豪, 马春辉.基于离散元的滚石灾害被动防护网设计方法研究Journal of Water Resources and Water Engineering[J].,2023,34(4):175-182
基于离散元的滚石灾害被动防护网设计方法研究
Design of passive protection net for fockfall disasters using discrete element method
  
DOI:10.11705/j.issn.1672-643X.2023.04.21
中文关键词: 边坡滚石灾害  被动防护网  离散元  能量分析  被动防护网设计
英文关键词: slope rockfall disaster  passive protective net  discrete element  energy analysis  design of passive protective net
基金项目:国家自然科学基金项目(52279140);陕西省自然科学基础研究计划-引汉济渭联合基金项目(2019JLM-55);陕西省自然科学基础研究计划重点项目(2018JZ5010)
Author NameAffiliation
ZHANG Feiyun1, FENG Demin2, XU Yang1, LAN Yue1, LI Jinlin3, ZHAO Tianhao3, MA Chunhui3 (1.中国电建集团成都勘测设计研究院有限公司, 四川 成都 611130 2.中铁十一局集团第五工程有限公司, 重庆 4000003.西安理工大学 省部共建西北旱区生态水利国家重点实验室 陕西 西安 710048) 
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中文摘要:
      被动防护网是边坡滚石灾害的有效防治措施,如何有效、精准和经济地设计被动防护网,对提升抵御自然灾害的综合防范能力具有重大意义。针对频发的滚石灾害,构建了基于离散元的边坡滚石灾害被动防护网设计方法。通过建立精细的边坡、滚石和被动防护网离散元模型,分析滚石运动轨迹、拦截滚石数目以及拦截效率等指标,以确定高度、长度等被动防护网参数;通过监测滚石的速度、冲击能变化为被动防护网选型提供建议;通过分析被动防护网撞击断面上不同位置的形变变化规律,确定最佳防护工况下被动防护网的最大形变位置。以某大型水电站的库区道路建设为例,采用被动防护网离散元设计方法对滚石灾害进行定量分析,确定被动防护网尺寸为长度30 m、高度5 m时较为适宜,该设计能够使碎石拦截效率达到92%,防护网材料应能抵御108.5 kJ的冲击能。根据上述分析可知,基于离散元的边坡滚石灾害被动防护网设计方法能够定量评估滚石灾害的影响范围与影响程度,从而为水利水电、道路、桥梁等工程建设中的滚石防控措施设计提供方法与经验。
英文摘要:
      The installation of passive protection nets is an effective measure for preventing and controlling rockfall disasters on slopes. Designing passive protection nets that are effective, accurate, and economical is of great significance for enhancing the comprehensive disaster prevention and mitigation capabilities of the society as a whole. To address frequent rockfall disasters, a discrete element-based design method of passive protection nets for slope rockfall disasters is developed. By establishing the detailed discrete element models of the slope, rockfall, and passive protection net, indicators such as rock movement trajectory, number of intercepted rocks, and interception efficiency are analyzed to determine the parameters of the passive protection net, such as height and length. Then the type suggestion of the passive protection net is put forward based on the monitoring of the speed and impact energy changes of the rockfall. According to the analysis of the deformation variation of the protection net on various positions of the impact cross-section, the maximum deformation position of the passive protection net under the best protective condition is determined. Taking the construction of a reservoir road at a large hydropower station as an example, the discrete element-based design method for passive protection nets is used to quantitatively analyze rockfall disasters, and it is determined that the optimal length of the passive protection net is 30 m and the height is 5 m, with which the gravel interception efficiency can reach 92% and the slope material is capable of withstanding an impact of 108.5 kJ. Based on the above analysis, the discrete element-based design method for passive protection nets for slope rockfall disasters can quantitatively evaluate the impact scope and degree of rockfall disasters, so it can provide a new approach and some reference for the design of rockfall prevention and control measures in engineering projects such as water conservancy and hydropower stations, roads, and bridges.
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